MANUAL Battery Drive BAMOBIL A2-x-50...200 for DC-Motors BAMOBIL-A2 Version 0909
BAMOBIL A2 Content Contens Seite 1 Basic - Information Standards and Guidelines 3 Introduction 4 Uses 4 Build 4 Technical Data 5 2 Mechanical lnstallation Dimensions Bamobil - basic device 6 Dimensions Bamobil - ventilation fan option 7 3 Elektrical Installation Connection overview 8 Power connection 9 Control connection 10 Speed command value, bipolar 11 Command value speed, unipolar 12 Drive ready signal BTB 13 Analog parameter measurement 13 Solid state driver outputs 14 Connector pin outs 15 4 Device overview Component overview 16 Block diagram 17 Adjustment function 18 5 Adjustment Adjustment advice 19 Command value, current limiting 20 Speed actual value 21 Speed control loop circuit 22 Set-up without measurement equipment 22 Standard Installation 24 6 Commissioning Commisioning 25 7 Faults Functional faults 26 Signals 27 8 Protocol 28 9 Quarantee 29 2
1 Basic - Information Electronic Equipment is not fault proof. This fact should be borne in mind for all possible operating conditions. ATTENTION - High Voltage DC 60V= Safety Advice Before installation or commissioning begins, this manual must be thoroughly read and understood by the technical staff involved. If any uncertainty arises, the Manufacturer or Dealer should be contacted. BAMOBIL - devices are Power Electric parts used for regulating energy flow. Protection rating IP53. Standards and Guidelines: The device and it s associated components can only be installed and switched on where the local laws and technical standards have been strictly adhered to: EU-Guidelines 89/392/EWG, 84/528/EWG, 86/663/EWG, 72/23/EWG EN60204, EN50178, EN60439-1, EN60146, EN61800-3 - IEC/UL IEC364, IEC 664, UL508C, UL840 - VDE-regulations VDE100, VDE110, VDE160 - TÜV-regulations - Regulations of Professional and Occupational bodies: VGB4 The user must ensure that in the event of : - device failure - incorrect operation - loss of regulation or control the axis will be safely de-activated. It must also be ensured that the machine or equipment be fitted with device independent monitoring and safety features. Setting Adjustments - should only be carried out by suitably trained personnel - should only be carried out in accordance with Health and Safety guidelines Installation - should only be carried out when all Voltages have been removed. QS CE Test results are archived with the device serial number by the manufacturer. The device adheres to the following: Guideline EU 89/336/EWG. EMV standards EN61000-2 and EN61000-4. BAMOBIL A2 3
BAMOBIL A2 Introduction IIntroduction The Battery-Drive series BAMOBIL-A2 in combination with low-voltage dc motors provide a Drive solution with excellent control characteristics. The current (I) in a dc motor is proportional to the torque. The voltage across a dc motor is proportional to the speed. As parameters, both current (I) and speed lend themselves to precise measurement. The speed actual value can be obtained from the armature or dc tacho voltage. A robust analog controller is built around these parameters. The speed and current loops are implemented using PI (proportional Integral) controllers. Uses Battery powered machines and vehicles of all types with a Drive power of up to 5,6kW, especially where the following is required: * a wide control range * high dependability * small motor dimensions * highly repeatable, accurate and quiet moves * speed control * torque control * combined speed/torque control * incorporated within, or independent of position control loops. Particularly suitable for: * Battery powered vehicles such as cleaning machines, electric boats, fork lifts, automated warehouse transporters etc. * Solar or wind powered Island devices. Build IP53 rating to VDE DIN and EU guidelines. Analog control electronics Power section using IGBT semiconductors, comfortably overdimensioned. Features * Battery powered or * Mains isolated dc (See advice page 8!) * Bipolar differential command-value input * PWM input (option) * Speed and Torque regulation * Static and dynamic current (I) limiting. (Temperature controlled) * Measurement points for current(i) and speed * Drive enable and emergency-stop logic * Brake logic * Main Fuse logic * Temperature watchdog 4
1 Basic - Information Technical Data Power Connection Type BAMOBIL A2-62 Battery Supply Voltage 24V to 48V (Option 12V) dc supply Mains isolated dc Output Voltage 0.95 x U B Control Voltage Connection 24V to 48V (Option 12V) See advice page 8! Brake energy!! max. 23V to max. 47V 24V= -10%,+20%, max. 0.5A ac component < 20%, Gnd = -UB (Option 48V with isolated DC/DC convertor) Technical Data Specification BAMOBIL A2-62 - x 50 100 150 200 Continuous max. A= 25 50 75 100 Peal current (I) A= 50 100 150 200 Power, max. W 2300 4700 6900 9400 Power, contin. W 1150 2350 3450 4700 Fuses external AF 80 160 160 200 Power loss S3 50% W 50 120 180 260 Cooling Self See cooling advice Dimensions WxHxD See dimensional drawings Weight Kg 1 Weight with fan Kg 1.9 Common Specifications Protection rating Format IP50 VDE0100 Group C VDE 0160 Moisture rating Class F to DIN 40040 No condensation allowed Operating range 0 45 C Extended range Storage Speed controller Control precision (without actual to 60 Creduced by 2% / C -30 C to +80 C value error) ± 0.5% Control range 1:1000 Temperature watchdog 80 C BAMOBIL A2 5
BAMOBIL A2 Dimensions Dimensions BAMOBIL A2 Basic Device 133.00 123.00 32.50 50.00 5.00 115.00 Heat dissipation The heat dissipation of the integrated heat plate is limited to approx. 50W. Dissipation can be enhanced by selecting an appropriate mounting plate or (because sheet metal only offers limited dissipation) a ventilation fan should be employed. Mechanical Installation- Torque Note The Electrical Connection bolts can withstand a maximum torque of 4.5Nm. A higher applied torque can damage the internal press-solder connections 6
2 Mechanical Installation Dimensions BAMOBIL A2 Ventilation fan option Mounting on the switchboard Mounting height without connector 130mm Distance bold 10x60 mm inside 5.5 mm Screws M5 x 80 Fan connect. 24V= Dimensions Recess - Mounting Mounting height without connector 70mm. Recess depth 60mm Screws M5x30, M5 x 20 6.50 110.00 6.50 30.00 30.00 110.00 Liquid cooled heat sink Mouting height without connector 90mm Screws M5 x 40 BAMOBIL A2 7
BAMOBIL A2 Connection Overview Caution: Power Connections XB:1 (+UB), XB:4 (-UB) Connection Polarity: No Polarity swap protection is possible. False polarity connection may destroy the power section! The Power Connection should not be removed during braking! Where required, protection diode D1 should be employed with Current(I) Rating = Device peak current(i). Connection to a dc supply or mains operated dc supply When using a dc supply other than a battery, braking generated over-voltage must be limited to 20% of the operating bus voltage. This may be achieved by reducing the internal resistance of the power source or by employing ballast circuitry. Under standard operating conditions, the over-voltage watchdog will switch the Drive to fault condition. However in the case of a very small motor resistance, the corresponding rapid braking voltage rise may damage the power section. Control Voltage Connection X1:25, X1:13 Polarity protected. Always check the fan connection polarity. The control voltage can be switched independently of the power connection. Always check the voltage tolerance and ac component tolerance. When supplied from the battery bolts, connect X1:13 to XB:4 (-UB). Motor Connection XB:2 (M1), XB:3 (M3) For a positive command value, M1 is positive with respect to M3. The motor connections may be swapped. EMC problems may be reduced through the use of a choke and shielded cables. A power drop-out brake energy dissipater may be implemented using contact K1 and Brake resistor RB1 Control connections - See detailed descriptions 8
3 Elektrical Installation Power Connections Warning: The order of the connections to the connector numbers or screw terminals is obligatory. All further advise is non-obligatory. The input and output conductors may be altered or supplemented in accordance with electrical standards. Note: - Connection and operating instructions - Local regulations - EU guidelines 89/392/EWG, 84/528/EWG, 86/663/EWG - VDE, TüV and Trade body guidelines - CE advice, EMC Power Connection Attention: A dc bus over-voltage condition may destroy the Drive. The BAMOBIL-A2 must maintain the Battery connection (+UB XB:1, -UB XB:4) for 1s after the Drive enable signal has been disabled. This allows for possible Brake generated over-voltage to be limited by the battery. To protect against the uncontrolled switching-off of the battery during braking, protection diode D1 should be installed. For advice on connection to dc supplies other than a battery, refer to page 8. For a positive Command value, M1 is positive w.r.t. M3. Conductors (minimum values) Dimensioning For A 50 100 150 200 Battery connection mm 2 (AWG) 6 (10) 16 (4) 25 (2) 35 (1) Motor connection mm 2 (AWG) 6 (10) 10 (10) 16 (4) 25 (2) Supply Fuse F1 A 50 100 160 200 Control voltage mm 2 (AWG) 0.5 (20) Control voltage fuse AF 1 Warning: Battery cable length < 2m For longer cable runs, increase the cross-sectional area by 1 stage! For cable length > 5m install additional capacitors on the Drive. Cable connector bolts, torque rated to 4.5Nm BAMOBIL A2 9
BAMOBIL A2 Control Connection Control Connections The connection advice is provided as general information and is not obligatory. Note: - Connection and operating instructions - Local regulations - EU machine guidelines 89/392/EWG. - VDE, TüV and Trade body guidelines Connector pin-outs 25 way D connector X1:1 to X1:25 Signal conductors Shielded and separated from Power conductors. Command value pair, twisted and shielded Logic Connections Relays with Gold contacts or reed relays. Contact current, 6mA Drive enable, internal logic voltage - Logic voltage +24V X1:25 - Contact circuit between X1:25 and X1:10 (FRG Drive enable) Drive enable, external logic voltage - Drive enable voltage +10 +30V X1:10 - GND X1:13 (GND24) Drive enabled - Command value and Speed controller are immediately active. Drive disabled - Command value and Speed controller are immediately de-activated. Make sure that the Battery Voltage remains connected to the Drive for at least 10s after the Drive has been disabled. Control Voltage - dc voltage X1:25 24V= -10%,+20% X1:13 GND24 - Operating range 21 to 30V - Current rating 0.5A Optional extended Control Voltage range 24/48V using DC/DC converter - internally isolated DC/DC converter - dc 24V to 48V ±20% - Operating range 19 to 48V - Current rating 0.5A Ventilation Fan connection 24 or 48V dc, max. 0.3A 10
3 Elektrical Installation Speed Command value, Bipolar Voltage source for command value +/- 10V, 10mA Output resistance 470R (for a Command value pot. of 5K) +12V X1:19-12V X1:18 GND X1:17 Command value input - Nominal Command value Voltage 10V dc (max. 12V dc) - Differential input - Input resistance 50k - Relay contact: Use Gold, or reed contact Commannd value Attention The command value pair should be twisted and shielded. The shield should be connected on one side only. Connections: Command value using internal voltage supply Command value X1:4 (Signal) X1:17 (GND) Bridge X1:5 to X1:17 Command value from external CNC/PLC voltage Command value X1:4 (Signal) X1:5 (GND) Command value Current (I) from external CNC/PLC Command value Current (I) ± 20mA. Resistor = 500R Command value current (I) X1:4 (Signal) X1:5 (GND) Using internal voltage source CNC / PLC Current (I) Attention: Do not use a command value current (I) range 4 to 20mA. BAMOBIL A2 11
BAMOBIL A2 Command value Speed Command Value, Unipolar Voltage source for Command value +10V, 10mA Output resistance 470R (for a Command value pot. of 5K) +12V X1:19 GND X1:17 Command value input - Nominal Command value Voltage 10V dc (max. 12V dc) - Differential input - Input resistance 50k - Relay contact: Use gold, or reed contact Attention The command value pair should be twisted and shielded. The shield should be connected on one side only. Connections: Command value using internal voltage supply Command value X1:4 (Signal) X1:17 (GND) Bridge X1:5 to X1:17 Command value from external CNC/PLC voltage Command value X1:4 (Signal) X1:5 (GND) Command value Current (I) from external CNC/PLC Command value Current (I) ±20mA Resistor = 500R Command value current (I) X1:4 (Signal) X1:5 (GND) Using internal voltage source CNC / PLC Current (I) Direction Change of direction Changing the direction of the command value polarity Direction - X1:7 (signal direction) X1:12 (GND) 12
3 Elektrical Installation Drive ready signal BTB Solid-State relay Signal contact X1:21 - X1:22 Switch Rating max. 48V; 0.3A, Ri < 2.5 Ohm Signals The Drive ready signal (BTB from the German Betriebsberiet) informs the controlling device (CNC/PLC) that the Drive is functional The BTB signal can be daisy chained to other Drives. The maximum delay once the control voltage has been applied is 1 second. Function Display BTB relay Drive Ready LED V4 bright green Contact closed Error LED V1 bright red Contact open BTB drops when Function The error is Over Temperature Heat sink exceeds 75 o C Saved Under Voltage UB < 18V Not Saved Over Voltage UB > Unominal + 25% Saved Short circuit/ circuit to earth Motor conductors To clear the error, re-enable the Drive (rising flank) Saved Attention: The Drive Ready (BTB) contact must be fed back to the CNC/PLC or wired into the emergency stop circuit! It is possible for the Drive to initiate motion without being instructed to do so! Fault saving is not effective for all errors! Analog parameter measurement Function Motor Current(I) Speed Armature Voltage Connector X1:15 X1:16 X1:20 Peak Current (I) Contin. Current (I) ±5.0V ±2.5V Speed With nmax poti ±5V Armature Voltage max. ± 24V Output resistance 1k 4k7 1k BAMOBIL A2 13
BAMOBIL A2 Solid State Driver Outputs Solid State Driver Outputs Driver Supply Voltage X1:24 Bridge to +24 (X1:25) or independent voltage 12 to 48V Reference X1:13 GND24 Maximum switching current (I) 1A Driver Output for Main Breaker When the control voltage is applied, and no error is present, The Power on (x1:2) output will be switched to the supply voltage present on X1:24. If an error occurs, the output will be disabled, and the main breaker will drop out Brake Output Driver If the Drive is disabled by switching off the Drive Enable (FRG) input or if the Drive is enabled but the Command Value is zero, then the Brake driver output (X1:23) is switched off. The Brake is activated. If the Drive is enabled by switching on the Drive enable (FRG) and the Command Value is greater than zero, the Brake driver output (X1:23) is switched on. The Brake is de-activated. 14
3 Electrical Installation Control Signals Function Description Connector Number Tacho+ Tacho input plus X1:1 Power On Main Contacter control driver output X1:2 Command val. + Command val. - Free X1:3 Command value + input X1:4 Command value - input X1:5 Clk PWM clock input X1:6 -Direction PWM Direction, Command val. invert i/p X1:7 +Direction PWM Direction input X1:8 +12-INDU PWM supply input X1:9 FRG Drive enable input X1:10 GND12 GND reference for PWM supply X1:11 GND GND X1:12 GND24 GND ref. for Control Voltage X1:13 Tacho- Tacho input minus (GND) X1:14 I-Ist-A Analog output current (I) X1:15 N-Ist-A Analog output Speed X1:16 GND Ground X1:17-12E Supply for Command value pot. X1:18 +12E Supply for Command value pot. X1:19 Anker-A Analog output Armature voltage X1:20 BTB Drive ready X1:21 BTB Drive ready X1:22 Brake Output Brake Control X1:23 Supply Voltage Power Supply for Driver outputs +12V= to +48V= X1:24 +24V Control Voltage +24V= X1:25 Connector Pin Outs Connector housing = GND Power connection + UB Battery plus XB:1 - UB Battery minus XB:4 M1 Motor connection 1 XB:2 M2 Motor connection 2 XB:3 BAMOBIL A2 15
BAMOBIL A2 Component overview Display V4 green V3 green V2 green V1 red Pot. R5 R4 R3 R2 R1 Function Drive ready (no error) +15 internal supply voltage Drive enable Fault, error Function XP nmax INT IxR Imax 16
4 Device Overview BAMOBIL A2 17
BAMOBIL A2 Adjustment Potentiometer Adjustments Function Speed adjustment Current limit Command value Integrator Amplification Proportional (P) component IxR compensation Pot. R4 (nmax) R1 (Imax) R3 (INT) R5 (XP) R2 (IxR) LED Displays Function Colour Description BTB V4 green Drive ready +15 V3 green Control Voltage internal Enable V2 green Drive enable Fault V1 red Fault Parameter measurement test points Function Speed Current (I) Armature Voltage BTB contact Description actual speed N-Ist-A actual current I-Ist-A Armature Anker-A Drive ready/ fault 18
5 Adjustments Adjustment advice Adjustments - to be carried out only by qualified personnel - Observe all safety regulations - Follow the correct adjustment sequence Optimisation Actual value matching Adjust with potentiometer nmax adjustment Adjustment advice Current limiting Speed control Path / motion control Imax adjustment XP adjustment In the PLC/CNC control Attention: When optimising start with the innermost control loop and work out. Sequence: Current loop Speed loop Position loop Dependant on the motor circuit load time constant. (motor inductance and motor resistance) This will be factory optimised Axis dependant. (inertia, friction) This should be adjusted to the desired axis dynamic. (see page 22) This will be optimised within the controlling device (CNC/PLC) Test Points Measurement Max. Value Connector Command Value ±10V X1:4 Speed ± 5V X1:16 Current actual value ± 5V X1:15 BAMOBIL A2 19
BAMOBIL A2 Command value Current limiting Command Value Function max. value Connector Input Signal ± 10V= X1:4 Input Gnd X1:5 For a differential input > The Signal and GND connections are interchangeable. Using the internal supply > Bridge X1:5 to X1:17, GND to X1:17 Using current(i) as a command value. Command value using external current source 0 to ± 20mA External load resistor for Command val. 0 to ± 10V Comm. Val. Resistor R-Soll ohm = Comm. val voltage / Comm. val. Current(I) Attention: Do not use a command value current (I) of 4 to 20mA. Command value integrator Linear integrator Time adjustment with potentiometer INT (R3) Integration time limits: pot. left full scale 250ms pot. right full scale 30s Current(I) Limiting Peak current(i) range 0 to 200% contin. current(i) Pot. Imax (R1) If the heatsink temperature rises above 70 C the current limit reverts to the continuous value. Current actual value Current (I) actual value measurement on X1:15 Command value Measured value Imax (Temperature <70 C) Measure value ID (Temperatur >70 C) ± ± 5V ± 2.5V 20
5 Adjustments Speed Actual value dc Tacho only Tacho connection Input X1:1 =Tacho (Signal) Input X1:14 =Tacho (GND) Connector housing =Shield Command value input X1:4 positive Tacho input X1:1 negative Speed actual value Tacho Voltage for maximum speed Limiting values minimum 5V=, maximum 25V= Rough adjustment For higher Tacho voltages use an external series resistor Tacho voltage [V] external series resistor R [ >25 to 50V 22 k 50 to 100V 47 k 100V to 150V 100k Control using armature voltage feedback with IxR compensation Externally connect the armature voltage output X1:20 to the tacho input X1:1. A bridge internally in the connector housing X1:20 to X1:1 would suffice. Speed Fine adjustment with potentiometer nmax (R2 clockwise = faster) Command value from Potentiometer: With a 1V input, adjust the speed to 10% of the maximum required With a 10V input make fine adjustment to achieve 100% Command value from CNC/PLC: With a 0.8V command value, adjust the speed to 10% of the required max. IxR Compensation Adjust using pot. IxR. Turning clockwise increases compensation. If the setup is overcompensated the axis will oscillate! Direction change Swap the Motor and Tacho connections. In an armature feedback application, only the Motor connections need to be changed. BAMOBIL A2 21
BAMOBIL A2 Speed Control Speed control loop circuit - Amplification adjustment with potentiometer XP (R5) Basic set-up soldered in components P term = 100k I term = 22nF - amplification pot. XP to 50% - This set-up will suit the majority of applications Adjusting without measurement equipment Connect the motor. Command value = 0 XP = 10% (clockwise increases amplification) Enable the drive, - Turn potentiometer XP clockwise until the axis begins to oscillate - Turn XP back until the oscillation disappears - Turn XP back two clicks Drive Behaviour: Amplification too small Slow oscillations 1 0.1Hz Large overshoots Overshoots destination position Amplification too high Vibrations 30 200Hz Shudders during acceleration Shudders during braking and at position Attention: Drives connected to PLC/CNC controls - For the maximum speed output from the controller, adjust the nmax pot. to give a speed command value of between 8 and 9 V. 22
5 Adjustments BAMOBIL A2 23
BAMOBIL A2 Standard Installation Standard Installation Before commissioning, check the following connections Connection Voltage Terminals Battery connection Max. 24V or max. 48V XB:1, XB:4 Control Voltage 24V= -10%, +20% X1:25, X1:13 Motor connection Max. 23V or max. 47V XB:2, XB:3 Always read the name plate details! Power Connections Battery Motor 2 supply cables. Check the polarity! 2 motor cables Control connections Control voltage 24V= -10%,+20% X1:25, X1:13 Drive ready (BTB) Contact terminals between X1:21, X1:22 Drive enable Contact terminals between X1:25, X1:10 Command value from PLC/CNC Differential input ± 10V X1: 4, X1: 5 Command value using a pot. supplied by the Drive internal supply Bridge X1:5 to X1:17 Command value supply Plus 12V (470R) X1:19 Command value supply Minus 12V (470R) X1:18 Command value ± 10V X1:4 Actual value Tacho ± 24V X1:1 (GND X1:14) Armature Voltage feedback Bridge X1:20 to X1:1 Base settings for initial commissioning Function Potentiometer Setting Peak current(i) I max 20% Continuous current(i) I D 100% Amplification XP 10% Speed n max 0% IxR IxR compensation 50% 24
6 Commisioning Having followed the standard installation instructions (above) Switch on the power LED BTB bright green Switch off the power and rectify the fault Fault LED bright red. Over temperature? Short-circuit on Motor connection? Commisioning Set the command value to 0V Enable the Drive Motor stationary Or turns at a constant slow speed Motor runs fast Tacho connections? Wrong polarity? No armature voltage? Increase the command value to 10% Motor runs with a constant approx. 10% Motot stationary Check the Drive enable Check the command value Check the motor connections The motor runs noisily Reduce the amplification XP Fine Adjust nmax to achieve 10% actual speed Increase command value to 100% Motor runs at a constant 100% Unable to adjust to correct speed Incorrect input resistance Power Supply Voltage too small Adjust current(i) limits adjust the peak current(i) with Imax Basic commissioning complete Optimise the Axis Document the set-up in the protocol section BAMOBIL A2 25
BAMOBIL A2 FAULT Functional Faults Fault Causes Error LED bright red Over-temperature on heatsink short-circuit on Motor connection Final stage fault Overvoltage Overvoltage arising during braking Motor stationary, no torque Drive enable missing (LED drive enable dark) Current Limit pot. Imax turned onto left limit Motor connection open-circuit No Power Voltage Armature voltage feedback - Bridge X1:1-X1:20 missing Motor runs away Incorrect tacho polarity Tacho connection open-circuit Motor running noisily Amplification XP too high Interference on command value signal Unable to adjust to the correct speed using pot. nmax Incorrect external Tacho series resistor Incorrect command value 26
7 Commisioning Signals Time sequence 1 Drive enable Motor stationary, holding torque applied 2 positive command value Motor accelerates 3 Command value 0V Motor brakes 4 Command value negative Motor accelerates 5 Command value positive Motor brakes and accelerates 6 Constant speed Motor travels using load current 7 Drive disabled Motor coasts 8 Drive enabled Motor accelerates 9 Over load condition Speed collapses, Current goes to maximum peak current 10 Overload, Temperature > 70 C Current is reduced to continuous current 11 Continuous current limit BAMOBIl A2 27
BAMOBIL A2 Protocol Customer Drive Commissioning Protocol Machine no. Serial no. Connection Battery Voltage = Control Voltage = Fuse A Fuse A Inputs Enable Contact PLC/CNC Voltage = Command value Pot. PLC/CNC Voltage = Actual value settings Tacho V/1000 rpm R23 k armature Voltage V/1000 rpm R27 k IxR comp. R2 R8 k P term Speed control loop settings I term Potentiometer settings Current (I) Imax R1 Setting Amplification XP R5 Setting Speed nmax R4 Setting Motor voltage max. V= Tacho voltage max. V= Measured data IxR R2 Motor current (I) Peak A= Contin A= Manufacturer Serial no. Motor data Motor voltage Type Motor Current(I) Tacho voltage Brake Fan 28
9 Guarantee Guarantee UNITEK guarantee that the Device is free from material and production defects. Test results are recorded and archived with the serial number. The Guarantee Time begins from the time the device is shipped, and lasts one year. Unitek undertakes no guarantee for devices which have been modified for special applications. Defects, defective goods. During the warranty period, UNITEK will, at its option, either repair or replace products that prove to be defective, this includes guaranteed functional attributes. UNITEK specifically disclaims the implied warranties or merchantability and fitness for a particular purpose. For warranty service or repair, this product must be returned to a service facility designated by UNITEK. For products returned to UNITEK for warranty service, the Buyer shall prepay shipping charges to UNITEK and UNITEK shall pay shipping charges to return the product to the Buyer. However, the Buyer shall pay all shipping charges, duties, and taxes for products returned to UNITEK from another country. The foregoing warranty shall not apply to defects resulting from: * improper or inadequate repairs effected by the Buyer or a third party, * non-observance of the manual which is included in all consignments, * non-observance of the electrical standards and regulations * improper maintenance * acts of nature All further claims on transformation, diminution and replacement of any kind of damage, especially damage, which does not affect the UNITEK device, cannot be considered. Follow-on damage within the machine or system, which may arise due to malfunction or defect in the drive cannot be claimed. This limitation does not affect the product liability laws as applied in the place of manufacture (i. e. Germany). Guarantee UNITEK reserves the right to change any information included in this MANUAL. All connection circuitry discribed is meant for general information purposes and is not mandatory. The local legal regulations, and those of the Standards Authorities have to be adhered to. UNITEK does not assume any liability, expressively or inherently, for the information contained in this MANUAL, for the functioning of the device or its suitability for any specific application. All rights are reserved. Copying, modifying and translations lie outside UNITEK s liability and thus are not prohibited. UNITEK s products are not authorized for use as critical components in life support devices or systems without express written approval. The onus is on the reader to verifiy that the information here is current. BAMOBIL A2 29
BAMOBIL A2 30 UniTek Industrieelektronik GmbH, Hans-Paul-Kaysser-Str.1, D-71397 Leutenbach-Nellm. (b.stuttgart)